Combined typewriter and computing machine



July 7, 1942. F. w. SCHREMP COMBINED TYPEWRITER AND COMPUTING MACHINE Filed May 6, 1938 7 Sheets-Sheet l INVENTOR .W.SCHREMP N m T A L u s m July 7, 1942.

F. W. SCHREMP COMBINED TYPEWRITER AND COMPUTING MACHINE 7 Sheets-Sheet 2 Filed ma s, 1938 ENTOR CHREMP July 7, 1942. F. w. SCHREMP COMBINED TYPEWRITER AND COMPUTING MACHINE Filed May s, 1938 mvam'o F.W. SCHREMP '7 Sheets-Sheet 3 Mai ENSU LATlON A TORNEY July 7,, 1942. F. w. SCHREMP COMBINED TYPEWRITER AND COMPUTING MACHINE 7 Sheets-Sheet 4 Filed May 6, 1938 h we a: H v H mm U Q 1 mN @N INVENTOR FIW. SCHREMP BY fig A TORNEY Juli} 7, 1942. F. w. SCHREMP 2,283,845

COB JBINED TYPEWRITER AND COMPUTING MACHINE Filed May s, 1958 7 Sheets-Sheet 5 h v INVENTOR F: W. SCHRE'MP ATTORNEY July 7, 1942.

F. W. SCHREMF COMBINED TYPE-WRITER AND COMPUTING MACHINE Filed May 6, 1938 7 Sheets-Sheet 6 QUE INVENTOR F. W. SCHREMP OR'NEY July 7, 1942. F. w. SCHREMP COMBINED TYPEWRITER AND COMPUTING MACHINE Filed May 6, 19:58

7 Sheets-Sheet 7 309 INVENTOR F.W-. SCHREMP BY Z ATTORNEY O SBTC NC FIG.( i

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Patented July 7, 1942; ,288,846

UNITED STATES PATENT", OFFICE,

2,288,846 COMBINED ryrcwama AND COMPUTING mom Frederick W. Schremp, Elmira, N. Y., assignor to ton electrified bookkeeping machine.

Remington Rand Ina, Bufialo, N. Y., a corporation of Delaware Application May 6, 1938, Serial No. 206,351

s Claims.

Generally stated, it is the object of the inven- 5 rear section of some of the mechanism-of the, tlon to provide improved means for automatically machine with an outline of the sensing mecharecording numbers indicated on a totalizer or nism of the present invention in dot-dash lines; similar device. Fig. 5 is a partial and fragmentary front view of An immediate and particular object is to prothe machine; I vide improved means for enabling a combined l0 Fig. 6 is aview in front elevation and in sectypewriting and computing machine of known tion illustrating the change gear mechanism of sort automatically to print the totals by the use the Remington machine; of the ordinary typewriter types. From one point Fig. 7 is an isometric detail of a certain circuit of view the invention may be regarded as an imclosing device; provement on that described in the Patent No. 15 Fig. 8 is a detail plan view partly in section on 2,172,749, issued September 12, 1939, to George the line 8-8'oi Fig. 1; v C. Going. The present applicant, however, is Fig. 9 is a. fragmentary plan view with parts not the inventor of anything disclosed in the said in section about on the line Q--9 of Fig. 1;

Going patent. Fig. 10 is a schematic section through a. multi One object of the present invention is to provide 20 ple circuit changing device; and

improved means for sensing the total registered Fig. 11 is the circuit diagram of the total printon totalizer. This means includes improved ing mechanism.

mechanism for closing electric circuits selectively The Remington bookkeeping machine is well according to the digits indicated. known, having been in extensive use for many Another object is to provide improved electrical 2 years, its mechanism being shown in a line of means for translating a negative total into its patents which may be said to begin with the p ttrue amount. A 'totalizer is employed which does cut to Wahl 1,270,471, dated June 25, 1918. Only not contain fugitive one mechanism, the electric so much of said machine as is necessary to the circuits being so devised as to translate the true understanding of the present invention is, therecomplement of the negative total into the true 3) fore, shown in the drawings. negative amount. The Remington typewriter, which is a part of Other objects of the invention will be apparent the said machine, comprises a main frame 2B of from the following description. which a side plate and a front post are shown To the above and other ends the invention conin Fig. 1, and the top plate is indicated in section sists in certain features of construction and comin Fig. 4. The machine includes an angle bar 2 I, binations and arrangements of devices and of which serves as a pivot to a number of levers inelectric circuits, all of -which will be set forth eluding alphabet key levers 22 and numeral key herein and particularly pointed out in the claims. levers 23; and certain other levers which will be The invention is shown applied to a typewriter mentioned persently, all of said levers being inas the recording means, the types being selected 4 fluenced by restoring springs 24. The platen 25 one at a time by electromagnets. Said magnets is mounted in a carriage 26, the front bar of could, however, be as readily employed to control which appears in Fig. 5, and the rear bar in Fig. 4. other recording means, such, for example, as a This carriage has a feed rack ill engaging a pinpunch for statistical cards or tapes. In the draw ion 28 connected with an escapement wheel 30, ings the invention is shown applied to a Reming- 43 which is controlled by feed-dogs mounted on a In said drawings:

Fig. 1 is a right-hand side elevation partly in section and partly broken away of some of the forward portion of a Remington machine embodying the invention;

Fig. 2 is an enlarged section through the crosstotalizer and showing a portion of the contact devices, said devices being in the positions they 00- cupy at the top of the stroke thereof;

Fig. 3 is an enlarged right-hand side elevation of a portion of the machine, parts being in section on the line 3-3 of Fig. 5;

Fig. 4 is a generalschematic view in front to dog rocker 3| pivoted at 32, and operated by a which, in turn, are operated by levers 42 and 43 pivoted on the bar 2| and interspersed among the key levers before mentioned. The dog rocker 3I may also be operated by a space bar 45, whose bail arms 46 are fast on a rock shaft 4! having an arm 48 articulated at 50 with a lever 5 l pivoted at 52 and engaging behind an ear 53 on the link The carriage 26 is drawn toward the leftby the usual spring. This motion may be controlled on occasion by a tabulator mechanism, a portion of which is shown in Fig. 4 at 44. This mechanism acts when operated by depression of a tabulator key 49 to lift the rack 21 out of the pinion 28 and to interpose a stop in the path of column stops carried by the carriage.

The computing mechanism comprises an actuator mounted on the front of the typewriter frame, and certain step-by-step movable totalizers. The principal frame member of the ac tuator consists of a casting 54, portions of which are seen in Figs. 3 and 5, and which is secured to the top plate of the typewriter.

'63 (Fig. 4) connected to so-called fan pieces 64,

which, in turn, operate goose-neck cams 65, which latter actuate and determinethe differentialrotation of the master wheels. The mechanism includes a main truck or carriage 66 (Figs. 3 and 5) which is connected to arms 67 projecting forward from the typewriter carriage. On this truck 66 any desired number of vertical totalizers are set in'whatever positions are required by the work in hand.

The computing mechanism also includes a cross truck H connectedby a pick-up beam I2 to be picked up by certain ears I3 one on each of the vertical totalizers, said pick-up beam being depressed at the end of each computing column, whereupon the cross truck jumps back to its normal right-hand position, drawn by a spring. This truck has grooved rollers I5 running on tracks 16 and it carries a cross totalizer I1. This cross totalizer has been modified for purposes in Fig. 6. A gear sector operated by the gooseneck cams 65 (Fig. 4) is adapted to drive a pinion 83 splined on the master Wheel shaft,

either directly in addition, or indirectly in subtraction, through a meshing pinion hidden in Fig. 6, and loose for rotation on a slidable shaft 84. Said shaft 84 for the vertical master wheel is controlled through arm 86, rock shaft 81, and pin-carrying arm 88 by the usual floating cam lever 9I which can be shifted to, the subtract position about its pivot 92 by link 91 pivoted to a bell-crank 98 actuated by the state-controlling The shaft 84 for the cross totalizer addition, disconnect, or subtraction of numbers written in the respective columns in the familiar way.

Both master wheels can be reversed, whatever their previous setting, by shifting the rod 93 carrying the pivots 92 and III of the floating levers 9| and H0. This rod is shifted by a bellcrank I23 connected by link I24 with the so-' called correction hand-lever I25 of the machine. This hand-lever can also be operated through a vertical link I26 connected thereto by pin and slot. connection, said. link at its lower end being pivoted to an arm I21 (Fig. 5) fast on a shaft I28 and having another arm I30 to which at I3I is pivoted a three-armed lever I32 carrying acredit balance key I33 and release key I34. The third arm of this lever has a concentric slot I35 embracing a fixed pin I36 and having a locking shoulder I31, whereby when the parts are rocked by the credit balance key I33, they will be locked in reversing position, until released by tapping the release key I34. In the Remington machine the shaft IZB controls the bi-color ribbon mechanism to cause credit balances to be printed in red. As the above mechanism has been long in use in the Remington machine, and is described in Patent 1,270,541 and other patents, it need not be more fully described herein.

The credit balance key I33 is used for writing negative totals. For the writing of positive totals the cam I20 in the credit balance column sets the cross master wheel for subtraction. This credit balance key causes the true negative total to be added instead of subtracted in the cross totalizer, and causes it to be subtracted. instead of added in the corresponding vertical totalizer.

The Remington electrified bookkeeping machine, as manufactured, includes a power unit (Figs. 1 and 4), one form of which is described in the patent to Hart No. 2,063,737, and various additions 'to and improvements on which are described in other patents. The typewriting-machine frame is mounted on the main rectangular frame I40 of the power unit. Said unit has an electric motor which, by belts and gearing, constantly rotates a forward cam shaft MI and a snatch roll I42 counter-clockwise Loose on shaft I4I are numeral cams I43, one

for each numeral key 23 and each connectable to the shaft by a one-revolution clutch of which the releasable dog I44 is shown in Fig. 4, said dog normally held released by a detent I 45 pivoted at I46 and tripped by a link I41 on the co-ordinated numeral key lever. Fig. 1 is another cam which will be described hereinafter. The cam I43 is so shaped that in the first part of its rotation it allows a follower lever I48 to be rocked clockwise by a strong spring I50, and then raises it to normal position. Said lever is connected by a link I5I witha lever I52 loose on a shaft I53 and an arm of which lever is connected to the link 63 which operates the computing mechanism. On the up-stroke of the lever I48, a pawl I54 thereon engages under a lever I55 journalled on a cross rod I56 and rocks said lever clockwise. At its rear end the lever I55 is articulated with one of the levers 42 which, through bell-crank 4I, actuates the appropriate numeral type bar 40.

In order to actuate the type bars other than those for numerals, each key lever 22 has a. depending finger I51 which, when the key is depressed, rocks counter-clockwise a bell-crank I58 carrying a pawl I60 which when operated rocks an actuating pawl I6I into engagement with the (Fig. 4).

The cam shown in' The machine contains tabulator keys which control power mechanism not here shown, for

I aaaasse through the slot I82 and havea running fit in the slot to guidethe motion of the plate"! 'in a circular path. A contact lever I88 (Fig. 2) is actuating the carriage stops and associated devices.

The mechanism thus, far described isof the well known Remington construction, but, as far as the present invention is concerned, may be of other suitable construction.

For the purposes of the present invention, the cross-totalizer 11 has been modified so as to include a series of gears I83 (Fig. 2), one meshing with each of the familiarcarrying gears I64 of the Remington totalizer, said gears I83 pref-. erablyhaving forty teeth. .Theyare rotatably mounted on a cross shaft I85 secured in forward pivoted to the plate I83'at I81 and is drawn inward by a spring I88. A trigger I80, pivoted at I8I to the plate I83, has an arm capable of engaging in one-or the other of two rounded notches I82 in the edge of the lever I88, said notches having between them a hump I93. Said notches, in the spring-urged lever I88, serve to retain the trigger I90 yieldingly in the two posiand downward extensions ofthe cheek plates of f sembly including a spacing disc and a disc I 66,

the three pieces secured together by rivets I81. The disc I68 has four equally spaced teeth or fingers I 10 projecting beyond the periphery of the gear I63. The Going Patent No. 2,172,749, discloses assemblies similar to those just described but the gears have thirty teeth.

The improved numeral sensing apparatus for reading out the totals from the cross totalizer I1 includes certain stationary framing in front of said totalizer. This framework includes right and left-hand frame plates I 1i and I12 (Figs. 1 and 5) rigidly connected together by upper and lower frame rods, I13 and us, said frame plates being suitably secured flat against the frame plates and 56, respectively, of the regular Remington machine. Three auxiliary frames are strung on and supported by the rods I13 and I14.

The left-hand frame comprises upper and lower ward (Fig. 5) from the arc HS, their free ends being in the vicinity of the plane of the cross master wheel 82. These contacts are spaced angularly about the axis of shaft N55 to correspond with the tooth-spacing of the gear wheels I63. digits 0-9, the bottom pair being for another purpose to be explained hereinafter.

The mechanism for selectively closing the contacts I11, I18, in accordance with the amounts registered on the totalizer wheels, is mounted in part on the second of the auxiliary frames supported by the rods I13 and I10. This frame consists essentially of a plate I riveted or staked to two hubs I8I (Fig. 5) strung respectively on the said rods and preferably elongated leftward to act as spacers between the plate I80 and the yokes I15 of the first frame. These hubs may be secured in place-on the rods by set screws. As best shown in Figs. 2 and 3, the plate I80 has its main outline generally concentric with the shaft I85, and it also has in it a long slot I82 which is also concentric with said shaft. Said slot guides the circular motion of a sensing structure comprising a plate I83 having secured thereto two headed screws I84 which pass The upper ten contact pairs signify the tions to which it can be moved. The point of the trigger I90 is adapted, when the sensing structure is drawn downward, to strike and to be deflected by a tooth I10 of the disk I66 which at the time is geared to the master wheel 82.

When a register dial I34 indicates 0, the teeth I10 of the corresponding disc J66 stand in the positions shown in Figs. 2 and 3, and in adding operations they move counter-clockwise. Begin-'- ning .with the position shown in Fig. 2, when the member I83 is drawn down the trigger I80, dragging over the tooth I 10, will be rotated counterclockwise about its pivot I9I until its inner finger escapes from said tooth. In this movement, the rounded outer end of the trigger will have first a short dwell movement in the right-hand notch I 92 in the member I86, and then, riding up on the hump I93, will rotate said member clockwise. When the end of the trigger passes the dead-center of the hump, the spring I88 will cause the trigger to be snapped into the lefthand notch B92, moving the inner finger of the trigger outside of the orbit of the teeth I10 and the lever 58% returning to its normal position relative to the member 883. The lever I has a small post 595 of insulating material projecting leftward from its end (Fig. 5), and the ends of the, contact springs iit are in the path of this post. When the member E183 moves downward, this post moves first concentrically of shaft 565, then outwardly, and then inwardly, the movement being a composite of the bodily movement of the lever $36 with the member I83, and a pivotal swinging of the former. The parts are so proportioned that the post moves behind the o spring 1118, deflects it to close the contact, and returns before it reaches the next contact spring. When the dial indicates some digit other than 0, the tooth iiii will, of course, occupy the appropriate one of the nine positions be tween the positions occupied by the left-hand two teeth Mil in Fig. 2, and the corresponding contacts willbe closed. I

The wheel that is sensed, as just described, is the one whose-carrier wheel id l is at the time in mesh with the master wheel 02 (Fig. 8). In the Remington machine said master Wheel, at all times except during an actual computing movement, is positively locked by a pawl I96, pivoted at I91 and having a cam edge and slot controlled by a pin I98 on an arm of the universal rockshaft 200 of the machine as described in Patent 1,270,471. Said pin normally contacts an edge of said pawl concentric with the shaft 200 as shown in Fig. 3. The disk IE6 is thus prevented from being rotated by the trigger I90.

Once the trigger I has been deflected by a tooth I10 as described it will remain in its deflected position out of the orbit of said teeth until on its return stroke it is restored by abutting a pin or lug 20I projecting from the fixed guide plate I80, by which pin it is swung back to its active position shown in Fig. 2. This involves an outward and return swinging of the lever I88 and post I95, which,'however, occurs just after said post has passed the contact spring I18.

In order to reciprocate the plate I83, the upper screw I84 has pivoted thereto a vertical link 202 which (Figs. 1 and 9) is pivoted to one arm 203 of a lever whose other arm 204 is connected thereto by a yoke or bail bar 205, said arms pivoted loosely on the rod I53 which at its right-hand end is prolonged for the purpose. The arm 204 is inside the typewriter frame, and it is connected by a link 206 with a lever 201 pivoted-the same as the levers I48 and like them impelled downward by a strong spring I50. The lever 201 has a follower roller 208 bearing ona cam 2I0 loose on the power shaft I at the right of the cams I43 and controlled by a clutch whose dog M I is shown in Fig. 1.

involves a one-tooth rotation of the .escapement wheel 30 (Figs. 4 and 7) at each actuation of the dog rocker, 3|. The Remington machine is usually equipped with a pawl 221 on a vertical pivot 228 on the top plate of the machine, said pawl urged by a spring 230 to cause its tooth 23I to engage behind a tooth of the escapement wheel after each step thereof to prevent backward rotation of said wheel. The tooth 23I has one inclined and one abrupt face. At each stepping movement of the wheel this pawl 221 is swung rearward, and it snaps back to its forward posicontrplled by a spring 2 I4 and a solenoid 2| 5,

whose core is connected with said detent by a link 2 I6. When the solenoid 2 I 5 is energized, the detent M2 is swung counter-clockwise releasing the dog 2. At the end of a partial rotation, conveniently about a half turn, said dog and the cam are arrested by a second pivoted detent 2 I1 controlled by a spring 2I8 .and solenoid 220. When this solenoid is energized, the cam completes its rotation.

The outline. of the cam 2 I0 is; as shown in Fig. 1, such that, in normal position the lever 201 and sensing plate I83 are a little short of their uppermost positions, so'that the trigger I90 is about to strike the lug I but has not yet been restored to its active position. The upward motion is completed by the first part of the first half rotation of the cam, the parts then moving downward, being in their lowest position at about the time when the cam is arrested in mid-rotation; and said parts are forced upward during the second half-rotation. In Figs. 2 and 3 these parts are shown in their top positions, early in the first half rotation of the cam. The parts are left normally short of this position so as to keep the trigger I90 out of the path of rotation of the teeth I10.

The Remington totalizers frequently have one or. more denominational positions left blank for punctuation, one such space being shown in Fig. 5 for the decimal point in money values. In

, order to operate the space key when such a space reaches the master wheel, the totalizer 11 is provided in such space with a special fixed tooth 22I (Fig. 2) projecting the same as the teeth I 10 and in the eleventh position. This tooth is part of a plate 222 which is strung on the shaft I65 and which, to prevent its turning on said shaft, hasa bifurcated extension straddling the shaft 223 of the idler pinions 224, which pinions corneleventh pair of contacts I11, I18; these are marked SB in the electrical diagram,- where it will be seen that they are in the circuit of a solenoid 225. This solenoid (Fig. 1) has its armature connected by a link 226 with one of the lever arms 46 of the space bar 45, to depress the same and cause a carriage step.

The circuits of the magnets 2I5 and 220 are controlled by the stepping of the carriage, which tion at the completion of the step. This pawl has been prolonged and, through a pusher 232, controls a contact blade 233 which normally makes contact with another blade 234, but is deflected out of contact therewith and into contact with a third blade 235 during the stepping movement (see Fig. 11).

The total key 236 is in the form of a bellcrank pivoted to the outside of the typewriter frame 20 and having its depending arm .pivoted to a link 231 having a restoring spring 238. This link has a lug 240 which when the key is depressed closes the main circuit contacts 24I of the total-writing attachment. In order to hold these contacts closed throughout the total writing operation and then to openthem, the link 231 operates alever arm 239 fast on a rock shaft (Figs. 1 and 8) whose inner end carries an arm 242 which bears a lug 243 adapted to be engaged and locked by a horizontal latch lever 244 pivoted at its middle to a bracket on the front post of the typewriter frame. At its front end this lever has an extension 245 lying in such a position that it is deflected leftward by the cross truck II in the step thereof following the writing of the last digit of the total, and which step also results in the disconnection of said truck from the vertical noids as well as by the keys.

The operation of writing a positive total may now be understood by reference to the electrical diagram, Fig. 11. In said diagram, 25I, 252 are the leads to a source of direct current, and all of the solenoids 2I5, 220, 225 and 241 have their returns connected to the lead 25I. The lead 252 terminates in one of the main contacts 24I, the other of which is connected by a wire 253 with the contact blade 233. The latter is normally in contact with spring 234 which is connected by awire 254 with the solenoid 2I5. Blade 234 is also connected-to wire 255 which is a common conductor for all of the contacts I18 of the sensing mechanism. The ten numeral contacts I11 are connected by wires 256 to ten brushes 251 of a multiple switch 260 to be more particularly described hereinaften- Said switch contains three rows of contacts or commutator segments 26I,

262 and 263, with which the brushes 251 are adapted to contact respectively. Wires 264 connect each contact 26I with a contact 262'and a contact 263 according to a rule which will be explained. Each contact 263 is connected by a wire 265 with the appropriate one of the numeral solenoids 241 which cause the digits of the total to be registered and printed. For writing positive totals brushes 251 occupy their normal positions in engagement with the contacts 261 as shown in Fig. 11 in which a circuit may be traced from each contact I11 through wire 256, brush 251, contact 26l, wires 264 and 265 to thesolenoid 241 of the same numerical value.

When a positive total is to be copied from the cross totalizer 11, the typewriter carriage is brought by any suitable means, as by a depression of a tabulator key 49 (Fig. 4) into the field of that one of the vertical totalizers 1B which defines the new balance column and to the denominational position occupied by the highest digit of the total in the cross totalizer, which latter is also positioned at the same time. The cam I20 of this vertical totalizer will have been so set as to automatically set the cross master wheel for subtraction if it is desired that the writing of the total shall clear the totalizer; otherwise, the cam is set at disconnect. The operator then depresses the total key, and the mechanism thereupon writes the total automatically, the toal key being locked down by the latch 244. The closing of the main contact 2, establishes a circuit through wire 253, contacts 233, 234, wire 254, and solenoid 2l5 to source. Solenoid 2l5 releases the dog 2 of the clutch of cam 2), which makes a half rotation, being arrested by latch 2". Such half rotation first completes the up-stroke of sensing plate I83, swinging the trigger I90 into the position of Fig. 2, and then draws said plate and said trigger to the bottom of their stroke. The trigger will encounter a lug I10 at some point in the course of this excursion depending on the digit indicated, and will close the appropriate contacts I11, $18. This establishes the described circuit through the appropriate solenoid 241, setting the appropriate cam I43 into rotation, which first actuates the master wheels 6! and 62 accordingly and then prints the digit. In the cross totalizer this digit is subtracted from itself, leaving the dial at 0. During the resulting step of the carriage, the pawl 221 momentarily deflects the blade 233, breaking the circuit of the solenoid 2 i and closing that of the solenoid 229. The latter trips the detent 2H (Fig. 1) and allows the cam 2E0 to complete its rotation. As soon as the carriage completes its step to the next denomination, the pawl 221 breaks the circuit of solenoid 22!! and reenergizes solenoid 215, whereupon the above described cycle is repeated. The lug 22l causes the same cycle at the punctuation point, except that nothing is registered or printed'but only the space bar is operated. After the writing and subtracting of the lowest digit, the carriage again steps, breaking the circuit of solenoid 2l5 and closingthat of 220 as before; but at the same time the cross-truck trips the latch 244 and breaks the main circuit so that when the dog 2! i for the cam 2H! reaches the detent 2|2, solenoid 215 is not energized and'the mechanism stops in normal position. In the above operation the digits of the total are written one by one and are subtracted in the cross totalizer, leaving, the latter clear.

From the above description it will be perceived that the cam 210 begins its rotation sooner than the numeral cam I43 and, if allowed to do so, would complete it before the numeral was written and would then start another rotation. It is for this reason, and to produce proper timing, that the cam 2|!) is arrested in mid-rotation, and is not started again until the carriage has already made a considerable part of its step to the next denomination. At the same time the detent 2l2 is restored to its arresting position where it remains until the carriage has completed its step, when it is again released. The process of sensing the second digit thus begins immediately after the carriage assumes the proper position.

The means for controlling the mechanism so as to write a negative total or credit balance" will now be described. The totalizer 11 has at least one more register wheel than would be required to register the largest total contemplated, so that the highest wheel will show 0 when the total is positive and 9 when it is negative. The totalizer has no fugitive one mechanism, and a negative total will, therefore, appear by its true arithmetical complement. In a seven-wheel totalizer, negative 206 would appear as Negative 206 00, would appear as Negative 906 00 would appear as Such totals should be written according to the following rule familiar to all operators of nonprinting adding machines: All Os at the right, if any, are written as 0's. Of the remaining digits all are written by their Q-complements except the last which is written by its lo-complement; or, the 9s at the left of the total may be and preferably are ignored as representing non-significant zeroes. The mechanism and electric circuit of the present machine are constructed so as 'to follow this rule.

The shifting of the electrical connections between the several contacts I11 and solenoids 241 may be effected in various ways. As shown in the present instance a multipole switch 2611 (Figs. 10 and 11) has three tiers of stationary contacts or segments 26!, 262, and 263, ten contacts in each tier, and the brushes 251 can be moved from one tier to the next.

as it is operatively connected therewith only by wires. In the form represented in Fig. 10, the three tiers of contacts consist of three rows of plugs secured in a segmental cylindrical insulating are 266 supported by end plates 261. The brushes 251 consist of fingers projecting from insulated discs 268 fast on a shaft 210 journaled in said plates. Said discs have fingers 2H each rubbing over a segment 212. mounted in the are 266, said segments connected respectively to the appropriate wires 256 which lead to the contacts I11. On one end of the shaft 210 is a ratchettoothed disc 213 having an arm acted on by a spring 214 which tends to turn the shaft counter-clockwise to its normal position against a stop as shown in Fig. 10. The ratchet and shaft are turned step-wise by a pawl 215 on the armature lever 216 of a magnet 211 whose circuit will presently be described, and are retained in either of their two advanced positions by a pawl 218 which is connected by a link 280 with the armature of a magnet 28l an energization of which trips the retaining pawl and allows the spring 214 to restore the shaft. The pawl 215 is normally held out of engagement with the ratchet by a guide pin 282.

The circuit of the magnet 211 is closed by the depression of the credit balance key preparatory to writing a negative total, shifting the brushes 251 from the contacts 26I to the contacts 262. It

is energized again Just before writing the last digit of the total or the last digit preceding the The switch may be at tached to the machine at any convenient place,,

right-hand Us if such there are. shifting said brushes to the contacts 263. The magnet 28I is energized at the end of the total writing operation to restore the switch to normal.

As shown in Fig. 11, the wires 264 of the multipole switch are so connected that when the brushes 251 are on contacts 26I, each contact I11 is connected to the solenoid 241 of like numerical value, as hereinbefore explained; and they are so arranged that, when said brushes are on the contacts 262, each contact I11 is connected to the solenoid 241 of a numerical value equal to the 9-complement of that of the connected contact I11. The contact is connected to the 9 solenoid, the 1 contact to the 8 solenoid, and so on.

Said wires 264' are also so arranged that when the brushes 251 are on the contacts 263, the zero contact I11 is connected to the zero solenoid 241, and each of the other such contacts is connected to the solenoid whose numerical value is the complement of that of the contact. The 1 contact is connected to the 9 solenoid, the 2 contact to the 8 solenoid, and so on. It will be perceived that with this multipole switch shifted at the proper times, the machine will follow the rule given above for writing a negative total from its true complement as registered in the totalizer.

In order to detect the approach to the master wheel of the denomination containing the last digit other than 0, the following mechanism is provided. (Figs. 1, 3 and 5.) At the right of the plate I80, there is mounted on the frame rods I13 and I14 a frame structure consisting of sleeves 283 strung on said rods and two are shaped plates 284 and 285 staked to said sleeves.

Movably mounted on said plates is a sensing member consisting of an arc-shaped portion 286 having flat wings 281 at its ends, said wings embracing the plates 284 and 285 and supported thereby by screws 288 passing through slots in said wings and threaded into said plates. Said slots are so disposed and of such length as to allow to the sensing member a limited oscillation about the axis of the shaft I65. 'Ihe arc 286 has its left-hand edge two letter spaces to the right of the plane of the master Wheel 62 and it is of such length that when the highest wheel of the totalizer engages the master wheel, the lowest wheel I63 stands behind said arc. The inner surface of said are has nine longitudinal ribs I 299 so disposed that in the travel of the totalizer the sensing teeth I10 may move through the intervening slots. normally held in its upper position shown in Figs. 1 and 3, and when it is in that position and a wheel I63 stands at zero, its teeth I10 stand as shown in Fig. 3, one of said teeth being just above the uppermost rib 290 and another a tooth-space distance below the lowermost rib, so that, if the sensing member was released it could drop down one tooth space. If, however, any wheel within the range of the sensing member stands-in any other than its zero position, oneof its teeth I10 stands just below a rib 29 0 and would prevent the member from falling. The sensing member is released once for each digit-writing cycle to detect the presence or abscence within its field of a wheel out of zero position. The member may be urged downward by springs 29 I The sensing member 286, 281 is normally held in its upper position by a lever 292 pivoted on the frame rod I14 against the left-hand face of the plate 284 and urged counter-clockwise in Fig. 3 by a spring 293, the end of the lever pressing upward on the left-hand wing 281. It

The sensing member 286, 2-81 is is released from the action of said lever once at each wheel-sensing operation when writing negative balances only, by the following means. When the operator of the machine notes that the total is negative, he depresses the credit balance key I33 before depressing the total key. The lower arm of this key operates a long horizontal link 294, whose right-hand end is pivoted to a horizontal bell-crank 295 (Fig. 9) which by a link 296, is connected to an off-set arm 291 of a lever298 pivoted bail-fashion on the frame rod I14. The link 296 has a pin and slot connection 300 with the lever arm 291, so that after the lever 298 has been swung clockwise in Fig. 3 by the depression of the credit balance key, it

can be swung still further by other means. The

of a prolongation 303 (Fig. 5) of the upper guide screw I84. At each downward movement of the sensing member I83, this member 303 depresses the lever 298 and causes its pin 302 to rock the arm 292 away from the wing 281, leaving the sensing member 286, 281 free to drop if no wheel behind it stands at a number other than zero. It will drop for the first time when the last such wheel has just stepped to the left of it; that is to say, when the mechanism is sensin the last wheel whose numerical indication should be written by its nine-complement. The spring 293 restores the sensing member to its upper position as soon as the pin 303 moves upward.

When the sensing member 286 drops, an arm 304 thereon closes the contacts 305 in the circuit of the magnet 211 and causes the brushes 251 of the multipole switch to engage the contacts 263. This occurs at the last part of the downstroke of the member 303 and after the wheel by the depression of the credit balance key I33.

Any suitable switch may be arranged to be closed momentarily by the depression of this key and so as not to be closed by the return motion of the key to normal position. In the form shown in Fig. 5, an arm 306 fast on the shaft I28 has a pin 301 adapted to act on a flange 308 formed off from a lever 3I0 pivoted at 3 and acting on the blade which supports a contact 3I4. The arrangement is such that, when the shaft I28 is rocked counter-clockwise by depression of the credit balance key, the pin 391 rubbing over the flange 308 rocks the lever 3I0 and closes contact 3 against companion contact 3I5, the pin thereafter swinging clear of the flange and permitting the lever and contacts to return immediately to normal position. On the return stroke of the key the pm 301 strikes behind the flange 308, and swings the lever 3|0 idly without closing the contact, and escapes from the flange, and the lever 3I0 swings back to normal position. As the credit balance key is depressed before the total key, the contact 3I4 is conthe printing of the last zero or other digit, the

nected to lead 252 directly by a wire 323 (Fig. 11) andnot through the main switch 2. One ofthecontacts 3IB is also connected to this wire.v The contacts 305 and 3I5 are both connected to magnet 211 by wires 309 and 3I0. The return wire 3I9 of magnet 211 goes direct to lead 25L The energization of the magnet 28I may be caused by closing its circuit momentarily in any suitable way after the writing of the total has been completed. In the present instance, this is done at a pair of contacts 3| 8 (Fig. 1) operated by the return motion of the link 231, which as above described occurs immediately after the writing of the last digit of the total. In the form shown, said link has adjustably fixed thereto a piece 3I1 having an inclined flange 3I8 formed ofi therefrom and adapted to engage a pin 320 projecting from a lever 32I pivoted at 322 and resting on a piece of insulating material attached to one of the spring blades carrying the contacts 3l6. The arrangement is such that, during upward and rearward motion of the link 231 when the total key is depressed, the flange 3I8 passes under and beyond the pin 320, raising the lever 32I idly. On the return motion of the link, the flange Passes over. the pin and depresses it, closing the contact. The pin then escapes from the flange and the lever returns to normal position.

The mode of writing a negative total is as follows: In order to prevent the writing of nonsr'gnificant zeros, the operator preferably, as for example by depressing the appropriate one of the tabulator keys 49, brings the carriage to the denomination showing the first significant digit. Observing that the highest wheel shows nine, he then depresses the credit balance key I33 which reverses the gearing (Fig. 6) swings the lever 298 (Fig. 3) to its active position and momentarily closes the contacts 3I4, 3I5 (Fig. thus energizing the magnet 211 (Fig. and swinging the brushes 251 into contact with the segments 262, thus connecting the machine up to write nine-complements. He then depresses the total key 236, which becomes locked down by its latch 244, and closes the main contacts 24I. This closes the circuit 233, 234, and 254 (Fig. 11) to the solenoid 2I5 (Fig. l) releasing the clutch of the cam 2I0, which makes a half rotation. This pulls down the contact unit I83, the same as in the writing of a positive total, but the contacts I11 are now wired each to its complementary magnet 241 and the'digits written will be the nine-complements of the digits indicated on the totalizer. Meanwhile at each operation of the sensing unit I83, etc., the sensing device 286 (Fig. 3) will be released, but will not drop until all of the wheels I63 and teeth I10 indicating some digit other than zero have passed out of its range. On that operation which prints the nine-complement of the next to the last significant digit, the last wheel containing any significant digit will have escaped from the sensing device 286, which will this time drop down closing contacts 305 and again energizing magnet 211, bringing the brushes 251 into engagement with the contacts 253. The resulting step of the carriage brings into. operation the last wheel showing a digit other than zero. When on the next sweep of the digit sensing device, this last digit is sensed, its contact I11 will energize the magnet 241 whose value is the ten-complement of said last digit. The zeros following said digit, if any, will be printed as zeros. After last step of the cross truck will trip the latch 244, releasing the total key, which will return to normal position, breaking the main circuit. At the same time, the contacts 3I6 will be closed, energizing the magnet ZBI, which releases the shaft of the multipole switch 251 and said shaft will be returned by its spring 214 to its normal position. At each step of the carriage following an operation of a digit sensing device, the escapement wheel of the carriage will have momentarily opened the circuit through contact 234 and closed that through contact 235 and solenoid 220-, thus releasing the cam 2I0 for the second half of its rotation. On the last operation, the main circuit will have been broken at 2 before the dog 2 reaches its detent 2I2' and this cam will, therefore, stop, leaving the whole mechanism in its normal condition with the totalizer cleared except for the credit balance key. This the operator releases by tapping the release key I34.

It will be observed that normally the sensing trigger I is entirely out of the range ofmovement of the teeth I10, so that the totalizer is free to travel and its wheels to rotate in computing operations without any contact with the digit-sensing mechanism. Also, normally the detecting sensing device 286, 281 is held in its upper position so that the teeth I10 may pass freely through the grooves in its inner surface during the travel of the cross totalizer. These sensing devices are brought into engagement with the wheels only momentarily at times when the carriage is at rest and when sensing is re- .quired, and by the energy of the power mechof one rotation but would repeat the operation of subtracting and recording the digit. By the present construction the contacts I11, I18 are closed only momentarily, so that no auxiliary mechanism or electrical devices are required to prevent repeat operations.

While I have described what I consider to be.

a highly desirable embodiment of my invention, it is obvious that many changes in form could be made without departing from the invention, and I, therefore, do not limit myself to the exact form' herein shown and described, nor to anything less than the whole of my invention as hereinbefore set forth, and as hereinafter claimed.

What I claim as new, and desire to secure by Letters Patent is:

1. The combination of a totalizer having a wheel equipped with a tooth to be sensed, a cooperating sensing device including a trigger, means for drawing said cooperating sensing device in an are about the axis and in the plane of said wheel whereby said trigger is tripped by engagement with said tooth at a variable point in its arcuate travel depending on the digit indicated by said wheel at the time, and a plurality of control devices to be selectively tcjipetrlzlated by said trigger as it is tripped by said engagement with said tooth at a variable point in its arcuate travel depending on the digit indicated by said wheel at the time, a series of digital electro-magnets, and means whereby said trigger when tripped closes the circuit of the selected one of said magnets.

3. The combination of a totalizer having wheels each equipped with a device to be sensed,

a cooperating sensing device normally out of the range of movement of said wheels, means for imparting a step-by-step relative movement to said totalizer and said cooperating sensing device, power operated means for moving said cooperating sensing device into sensing engagement with one of said wheels at a time, and means whereby the relative stepping movement automatically initiates an operation of said power operated means, whereby the wheels are automatically sensed one after another in a continuous operation.

4. In a combined typewriting and computing machine the combination of a step-by-step moving carriage, power operated types, a platen, computing mechanism including a totalizer, means for sensing the wheelsof said totalizerone at a time at the several steps of said carriage, power operated means for moving said sensing means into sensing engagement with a wheel of said totalizer, means whereby the stepping movement of said carriage initiates an operation of said moving means, and means controlled by said sensing device for selectively causing operations of said power-operated types. I

5. The combination with an adding and subtracting totalizer having wheels adapted to be sensed, of means for sensing the digital positions of said wheels one at a time, said means and said totalizer having a relative travel from one denomination to another, recording means, means -whereb-y said recording means is controlled by said sensing means, said controlling means having three settings, one to record the digit indicated by the sensed wheel, one to print the ninecomplement of said digit, and one toprint the ten-complement. of said digit other than zero and a zero as zero, 9. second sensing device cooperating with wheels of lower order than the wheel sensed by said digit-sensing means and detecting'the approach of the last wheel indicating a digit other than zero, said second device adapted to move when said last wheel has passed beyond it, and means controlled by the second sensing means when so moved for changing said controlling means from its second said setting to its last said setting.

6. The combination of a totalizer having wheels provided with projections ten digit spaces apart, a movable sensing device with respect to which said totalizer has a traveling movement, said sensing device being of a length to cover a series of such totalizer wheels and of an effective width of nine digit spaces of said wheels and arranged to be supported against movement by any of said projections within its range and standing in a digital position other than zero and to move when in the relative travel of the totalizer it is no longer so supported, and mechanism controlled by said sensing device.

7. The combination with a totalizer, of reading-out means including an electric circuit com-' prising contacts one for each digit, electro-magnets one for each digit, and switching means including means for connecting each digital contact to the magnet of like digital value, means for connecting each digital contact with the magnet whose value is the nine-complement of that of thecontact, and means for connectingthe zero contact with the zero magnet and each other contact with the magnet whose value is the tencomplement of that of the contact, the last recited means acting automatically for reading the lowest wheels beginning with the firstthat indicates a digit other than zero; and means for closing said contacts selectively under control of a wheel of said totalizer.

8. The combination of a totalizer, an electric circuit comprising contacts one for each digit, electro-magnets one 'for each digit, and switching means including means for connecting each digital contact with the magnet of like digital value, means for connecting each digital contact with the magnet Whose value is the nine-complement of that of the contact, and means for connecting the zero contact with the zero magnet and each other contact with the magnet whose value is the tens-complement of that of the contact,. means for imparting a relative step-bystep feed to said totalizer and said contacts and at each step closing the contact appropriate to the digit indicated by a wheel of the totalizer,.

lowest totalizer wheel indicating a digit other than zero, and means controlled by said sensing means for effecting the last recited switching of the electric circuit. 7

9. The combination with a totalizer, of means for sensing one at a time the digits of a total registered on said totalizer, recording means, connections whereby said sensing means controls said recording means, 'a normally inactive device for testing the lower wheels of the totalizer to detect the presence of a wheel registering a digit other than zero, means controlled by said testing device for changing the said connections, and means acting once at each digit-recording operation to bring said testing device into action.

10. The combination with a totalizer, of means for sensing one at a time the digits registered on said totalizer, recording means, connections whereby said sensing means controls said recording means, means for shifting said connections from condition to cause said recording means to record the digit registered on a wheel of said totalizer to condition to cause the recording of the nine-complement of such digit, 9. normally inactive device for testing-the lower wheels of the totalizer to detect the presence of one registering a digit other than zero, means controlled by said testing device for making a second shift of said connections, and means controlled by the first recited shifting means for making said testing device and the second recited shifting means eflective.

.11. The combination of a relatively moving totalizer having wheels, a sensing device having a configuration substantially similar to that of the wheels, means on the wheels to maintain the sensing device in one position as long as the wheel registering 'the last digit other than zero of a total is passing the sensing device, means for moving the sensing device to another position when said wheel has passed beyond the ascents sensing device, and circuit means affected by the movement of said sensing device.

12. The combination. of a totalizer having a movable member equipped with a device to be sensed, a cooperative sensing member having an element to engage said device and be moved when engaged, means for drawing the sensing member across in front of the movable member, and a plurality of control devices selectively owrated by said element as it engages the device to be sensed.

13. The combination of a totalizer having a movable wheel equipped with a device to be sensed, a cooperative sensing member having an element to engage said device and be moved when engaged, means for drawing the sensing member across the face of the wheel and in the plane thereof, and a plurality of control devices selectively operated by said element as it engages the device to be sensed.

id. The combination ot a totalizer having a movable :neinher equipped with a device to be sensed, a cooperative sensing member having an element to engage said device and to be moved whenensaned, means for drawing the sensing member across in front of the movable member, a plurality of control devices selectively operated by said element aslt engages the device to be sensed, a step=hv-sten carriage, and means operated by the carriage to restrain the return of the sensing member to normal position until after the carriage has been stopped.

15. The combination of a. totaliaer having a wheel equitoned with an element to be sensed, said element adapted to be moved to a plurality of positions in single plane, a cooperative sensing device, means for drawing said sensing device 'al the ifs-co of the wheel in the plane of said element, and a plurality of control devices to be selectively operated by said sensing device as it travels in tront oi the wheel and engages the element to be I it. The combination of a totalizer having wheels and an element to be sensed on each wheel and adapted to he moved in plane to a plurality of positions as the wheels are selec t-ively rotated, a cooperating sensing device, a power operated cam, and a follower operated by said cam and connected to said sensing device to draw the same along the face of the nosi tioned wheel in the plane of the element thereon to be sensed, and a plurality of control devices to be selectively operated by said sensing device as it is drawn along the face oi the wheel.

1'7. In a machine for recording characters one at a time, the combination of a step-by-step traveling carriage, a toothed escapement wheel which moves each time the carriage is spaced, a pawl having a beveled tooth normally lying between the teeth of the wheel, and resiliently urged to this position, a circuit controlling device oonnected to the pawl and operated thereby as the tooth of the pawl is moved out by the teeth of the escapement wheel, each time the carriage is spaced.

18. In a machine of the class described, hav ing means for adding and subtracting numbers including a step-bystep movable totalizer which registers a negative total by its true complement, printing instrumentallties, and eiectro-mechan ical means for automatically, successively and selectively bringing about an actuation of said printing lnstrumentalitles for printing a total in accordance with and as determined by the set-up in said totallzer, the combination of means settable to adjust the electro-mechanical means to cause the printing oi the nines complement of the digits of ,a complementary total, movable means disposed in cooperative relation to the totalizer wheels for sensing the denominational position of the last digit other than zero of a complementary total, and means controlled by said sensing means when noved to further adjust the electro-mechanlcal means to cause the printing of the tens-complement of said last digit and to print any succeeding zeros zeros.

FEWERICK W. ECEmEMP. 

